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Line 1: {{about\|the mathematical concept of Graph Algebras\|"Graph Algebra" as used in the social sciences\|Graph algebra (social sciences)}} In [[mathematics]], especially in the fields of [[universal algebra]] and [[graph theory]], a '''graph algebra''' is a way of giving a [[directed graph]] an [[algebraic structure]]. It was introduced in {{harv\|McNulty\|Shannon\|1983}}, and has seen many uses in the field of universal algebra since then. {{Use shortened footnotes\|date=May 2021}} In [[mathematics]], especially in the fields of [[universal algebra]] and [[graph theory]], a '''graph algebra''' is a way of giving a [[directed graph]] an [[algebraic structure]]. It was introduced by McNulty and Shallon,{{sfn\|McNulty\|Shallon\|1983\|loc=[https://archive.org/details/universalalgebra0000unse/page/206 pp. 206–231]}} and has seen many uses in the field of universal algebra since then. == Definition == Let {{math\|1=''D'' = (''V'', ''E'')}} be a directed [[graph (data structure)\|graph]], and {{math\|0}} an element not in {{mvar\|V}}. The graph algebra associated with {{mvar\|D}} has underlying set <math>V \cup \{0\}</math>, and is equipped with a multiplication defined by the rules * {{math\|1=''xy'' = ''x''}} if <math>x,y \in V</math> and <math>(x,y) \in E</math>, Let <math>D=(V,E)</math> be a directed [[graph (data structure)\|graph]], and let <math>0</math> be an element not in <math>V</math>. The graph algebra associated with <math>D</math> is the set <math>V \cup \{0\}</math> equipped with multiplication defined by the rules <math>xy = x</math> if <math>x,y\in V,(x,y)\in E</math>, and <math>xy = 0</math> if <math>x,y\in V\cup \{0\},(x,y)\notin E</math>. * {{math\|1=''xy'' = 0}} if <math>x,y \in V \cup \{0\}</math> and <math>(x,y)\notin E</math>. == Applications == This notion has made it possible to use the methods of graph theory in universal algebra and several other areas of [[discrete mathematics]] and [[computer science]]. Graph algebras have been used, for example, in constructions concerning [[Dual (category theory)\|dualities]],{{sfn\|Davey\|Idziak\|Lampe\|McNulty\|2000\|pp=145–172}} [[equational theory\|equational theories]],{{sfn\|Pöschel\|1989\|pp=273–282}} [[flatness (systems theory)\|flatness]],{{sfn\|Delić\|2001\|pp=453–469}} [[groupoid (algebra)\|groupoid]] [[ring (mathematics)\|rings]],{{sfn\|Lee\|1991\|pp=117–121}} [[topology\|topologies]],{{sfn\|Lee\|1988\|pp=147–156}} [[variety (universal algebra)\|varieties]],{{sfn\|Oates-Williams\|1984\|pp=175–177}} [[finite-state machine]]s,{{sfn\|Kelarev\|Miller\|Sokratova\|2005\|pp=46–54}}{{sfn\|Kelarev\|Sokratova\|2003\|pp=31–43}} tree languages and [[tree automata]],{{sfn\|Kelarev\|Sokratova\|2001\|pp=305–311}} etc. This notion has made it possible to use the methods of [[graph theory]] in [[universal algebra]] and several other directions of [[discrete mathematics]] and [[computer science]]. Graph algebras have been used, for example, in constructions concerning dualities {{harv\|Davey\|Idziak\|Lampe\|McNulty\|2000}}, [[equational theory\|equational theories]] {{harv\|Pöschel\|1989}}, flatness {{harv\|Delić\|2001}}, [[groupoid (algebra)\|groupoid]] [[ring (mathematics)\|ring]]s {{harv\|Lee\|1991}}, [[topology\|topologies]] {{harv\|Lee\|1988}}, [[variety (universal algebra)\|varieties]] {{harv\|Oates-Williams\|1984}}, [[finite state automata]] {{harv\|Kelarev\|Miller\|Sokratova\|2005}}, [[finite state machine]]s {{harv\|Kelarev & Sokratova\|2003}}, ~~tree languages and [[tree automata]] {{harv\|Kelarev\|Sokratova\|2001}} etc.~~ == See also == * [[Group algebra (disambiguation)]] * [[Incidence algebra]] * [[Path algebra]] ==~~References~~Citations== {{Reflist\|20em}} {{Citation \| last1=Davey \| first1=Brian A. \| last2=Idziak \| first2=Pawel M. \| last3=Lampe \| first3=William A. \| last4=McNulty \| first4=George F. \| title=Dualizability and graph algebras \| doi=10.1016/S0012-365X(99)00225-3 \| id={{MathSciNet \| id = 1743633}} \| year=2000 \| journal=Discrete Mathematics \| issn=0012-365X \| volume=214 \| issue=1 \| pages=145–172}} {{Citation \| last1=Delić \| first1=Dejan \| title=Finite bases for flat graph algebras \| doi=10.1006/jabr.2001.8947 \| id={{MathSciNet \| id = 1872631}} \| year=2001 \| journal=Journal of Algebra \| issn=0021-8693 \| volume=246 \| issue=1 \| pages=453–469}} ==Works cited== {{Citation \| last1=McNulty \| first1=George F. \| last2=Shallon \| first2=Caroline R. \| title=Universal algebra and lattice theory (Puebla, 1982) \| publisher=[[Springer-Verlag]] \| ___location=Berlin, New York \| series=Lecture Notes in Math. \| doi=10.1007/BFb0063439 \| id={{MathSciNet \| id = 716184}} \| year=1983 \| volume=1004 \| chapter=Inherently nonfinitely based finite algebras \| pages=206–231}} {{refbegin\|35em}} {{Citation \| last1=Kelarev \| first1=A.V. \| title=''Graph Algebras and Automata'' \| publisher = [[Marcel Dekker]] \| {{Cite journal \| title = Dualizability and graph algebras ~~year=2003 \| place=New York \| isbn=0-8247-4708-9 \| id={{MathSciNet \| id=2064147}} }}~~ \| last1 = Davey \| first1 = Brian A. {{Citation \| last1=Kelarev \| first1=A.V. \| last2=Sokratova \| first2=O.V. \| year=2003 \| title=On congruences of automata defined by directed graphs \| journal=Theoretical Computer Science \| volume=301 \| issue=1-3 \| id={{MathSciNet \| id=1975219 }} \| pages=31-43 \|\| doi=10.1016/S0304-3975(02)00544-3 }} \| last2 = Idziak \| first2 = Pawel M. {{Citation \| last1=Kelarev \| first1=A.V. \| last2=Miller \| first2=M. \| last3=Sokratova \| first3=O.V. \| year=2005 \| title=Languages recognized by two-sided automata of graphs \| journal=Proc. Estonian Akademy of Science \| volume=54 \| issue =1 \| pages=46-54 \| id={{MathSciNet \| id=2126358}} }} \| last3 = Lampe \| first3 = William A. {{Citation \| last1=Kelarev \| first1=A.V. \| last2=Sokratova \| first2=O.V. \| year=2001 \| title=Directed graphs and syntactic algebras of tree languages \| journal=J. Automata, Languages & Combinatorics \| volume=6 \| issue=3 \| pages=305-311 \| id={{MathSciNet \| id=1879773}} }} \| last4 = McNulty \| first4 = George F. {{Citation \| last1=Kiss \| first1=E.W. \| last2=Pöschel \| first2=R. \| last3=Pröhle \| first3=P. \| year=1990 \| title=Subvarieties of varieties generated by graph algebras \| journal=Acta Sci. Math. (Szeged) \| volume=54 \| issue=1-2 \| pages=57-75 \| id={{MathSciNet \|id=1073419}} }} \| journal = [[Discrete Mathematics (journal)\|Discrete Mathematics]] {{Citation \| last1=Lee \| first1=S.-M. \| year=1988 \| title=Graph algebras which admit only discrete topologies \| journal=Congr. Numer. \| volume=64 \| pages=147-156 \| id={{MathSciNet \|id=0988675}}}} \| year = 2000 \| volume = 214 \| issue = 1 \| pages = 145–172 {{Citation \| last1=Lee \| first=S.-M. \| year=1991 \| title=Simple graph algebras and simple rings \| journal=Southeast Asian Bull. Math. \| volume=15 \| issue=2 \| pages=117-121 \| id={{MathSciNet \| id=1145431 }} }} \| doi = 10.1016/S0012-365X(99)00225-3 \| issn = 0012-365X \| mr = 1743633 {{Citation \| last1=Oates-Williams \| first1=Sheila \| title=On the variety generated by Murskiĭ's algebra \| doi=10.1007/BF01198526 \| id={{MathSciNet \| id = 743465}} \| year=1984 \| journal=Algebra Universalis \| issn=0002-5240 \| volume=18 \| issue=2 \| pages=175–177}} \| doi-access = free }} {{Citation \| last1=Pöschel \| first1=R \| year=1989 \| title=The equational logic for graph algebras \| journal=Z. Math. Logik Grundlag. Math. \| volume=35 \| issue=3 \| pages=273-282 \| id={{MathSciNet \| id=1000970}} }} {{Cite journal \| title = Finite bases for flat graph algebras \| last = Delić \| first = Dejan \| journal = [[Journal of Algebra]] \| year = 2001 \| volume = 246 \| issue = 1 \| pages = 453–469 \| doi = 10.1006/jabr.2001.8947 \| issn = 0021-8693 \| mr = 1872631 \| doi-access = free }} {{Cite journal \| title = Languages recognized by two-sided automata of graphs \| last1 = Kelarev \| first1 = A.V. \| last2 = Miller \| first2 = M. \| last3 = Sokratova \| first3 = O.V. \| journal = Proc. Estonian Akademy of Science \| year = 2005 \| volume = 54 \| issue = 1 \| pages = 46–54 \| issn = 1736-6046 \| mr = 2126358 }} {{Cite journal \| title = Directed graphs and syntactic algebras of tree languages \| last1 = Kelarev \| first1 = A.V. \| last2 = Sokratova \| first2 = O.V. \| journal = J. Automata, Languages & Combinatorics \| year = 2001 \| volume = 6 \| issue = 3 \| pages = 305–311 \| issn = 1430-189X \| mr = 1879773 }} {{Cite journal \| title = On congruences of automata defined by directed graphs \| last1 = Kelarev \| first1 = A.V. \| last2 = Sokratova \| first2 = O.V. \| journal = Theoretical Computer Science \| year = 2003 \| volume = 301 \| issue = 1–3 \| pages = 31–43 \| url = https://eprints.utas.edu.au/157/1/congruences.pdf \| doi = 10.1016/S0304-3975(02)00544-3 \| issn = 0304-3975 \| mr = 1975219 }} {{Cite journal \| title = Graph algebras which admit only discrete topologies \| last = Lee \| first = S.-M. \| journal = Congr. Numer \| year = 1988 \| volume = 64 \| pages = 147–156 \| issn = 1736-6046 \| mr = 0988675 }} {{Cite journal \| title = Simple graph algebras and simple rings \| last = Lee \| first = S.-M. \| journal = Southeast Asian Bull. Math \| year = 1991 \| volume = 15 \| issue = 2 \| pages = 117–121 \| issn = 0129-2021 \| mr = 1145431 }} {{Cite book\| chapter = Inherently nonfinitely based finite algebras \| last1 = McNulty \| first1 = George F. \| last2 = Shallon \| first2 = Caroline R. \| year = 1983 \| title = Universal algebra and lattice theory (Puebla, 1982) \| editor1-last = Freese \| editor1-first = Ralph S. \| editor2-last = Garcia \| editor2-first = Octavio C. \| publisher = [[Springer-Verlag]] \| ___location = Berlin, New York City \| volume = 1004 \| series = Lecture Notes in Math. \| at = [https://archive.org/details/universalalgebra0000unse/page/206 pp. 206–231] \| url = https://archive.org/details/universalalgebra0000unse \| via = [[Internet Archive]] \| doi = 10.1007/BFb0063439 \| hdl = 10338.dmlcz/102157 \| isbn = 978-354012329-3 \| mr = 716184 \| hdl-access = free }} {{Cite journal \| title = On the variety generated by Murskiĭ's algebra \| last = Oates-Williams \| first = Sheila \| author-link = Sheila Oates Williams \| journal = [[Algebra Universalis]] \| year = 1984 \| volume = 18 \| issue = 2 \| pages = 175–177 \| doi = 10.1007/BF01198526 \| issn = 0002-5240 \| mr = 743465 \| s2cid = 121598599 }} {{Cite journal \| title = The equational logic for graph algebras \| last = Pöschel \| first = R. \| journal = Z. Math. Logik Grundlag. Math. \| year = 1989 \| volume = 35 \| issue = 3 \| pages = 273–282 \| doi = 10.1002/malq.19890350311 \| mr = 1000970 }} {{refend}} ==Further reading== {{refbegin}} {{Cite book\| title = Graph Algebras and Automata \| last = Kelarev \| first = A.V. \| year = 2003 \| publisher = [[Marcel Dekker]] \| place = New York City \| url = https://archive.org/details/graphalgebrasaut0000kela \| url-access = registration \| via = [[Internet Archive]] \| isbn = 0-8247-4708-9 \| mr = 2064147 \| ref = none }} {{cite journal \| title = Subvarieties of varieties generated by graph algebras \| last1 = Kiss \| first1 = E.W. \| last2 = Pöschel \| first2 = R. \| last3 = Pröhle \| first3 = P. \| journal = Acta Sci. Math. \| year = 1990 \| volume = 54 \| issue = 1–2 \| pages = 57–75 \| mr = 1073419 \| ref = none }} *{{Cite book\| title = Graph algebras \| last = Raeburn \| first = Iain \| year = 2005 \| publisher = [[American Mathematical Society]] \| isbn = 978-082183660-6 \| ref = none }} {{refend}} ~~{{math-stub}}~~ ~~{{compsci-stub}}~~ ~~[[Category:Universal algebra]]~~ [[Category:Graph theory]] [[Category:Universal algebra]]